gas flow units conversion
Amount: 1 Normal cubic metre per hour (Nm³/hr @ 0°C - 32°F) of gas flow
Equals: 0.000025 Mega Standard Cubic Metres per day (MSm³/d @ 15°C - 59°F) in gas flow
Converting Normal cubic metre per hour to Mega Standard Cubic Metres per day value in the gas flow units scale.
TOGGLE : from Mega Standard Cubic Metres per day into Normal cubic metres per hour in the other way around.
CONVERT : between other gas flow measuring units - complete list.
How many Mega Standard Cubic Metres per day are in 1 Normal cubic metre per hour? The answer is: 1 Nm³/hr @ 0°C - 32°F equals 0.000025 MSm³/d @ 15°C - 59°F
0.000025 MSm³/d @ 15°C - 59°F is converted to 1 of what?
The Mega Standard Cubic Metres per day unit number 0.000025 MSm³/d @ 15°C - 59°F converts to 1 Nm³/hr @ 0°C - 32°F, one Normal cubic metre per hour. It is the EQUAL gas flow value of 1 Normal cubic metre per hour but in the Mega Standard Cubic Metres per day gas flow unit alternative.
| Nm³/hr @ 0°C - 32°F/MSm³/d @ 15°C - 59°F gas flow conversion result | ||||
| From | Symbol | Equals | Result | Symbol |
| 1 | Nm³/hr @ 0°C - 32°F | = | 0.000025 | MSm³/d @ 15°C - 59°F |
Conversion chart - Normal cubic metres per hour to Mega Standard Cubic Metres per day
1 Normal cubic metre per hour to Mega Standard Cubic Metres per day = 0.000025 MSm³/d @ 15°C - 59°F
2 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.000051 MSm³/d @ 15°C - 59°F
3 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.000076 MSm³/d @ 15°C - 59°F
4 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00010 MSm³/d @ 15°C - 59°F
5 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00013 MSm³/d @ 15°C - 59°F
6 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00015 MSm³/d @ 15°C - 59°F
7 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00018 MSm³/d @ 15°C - 59°F
8 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00020 MSm³/d @ 15°C - 59°F
9 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00023 MSm³/d @ 15°C - 59°F
10 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00025 MSm³/d @ 15°C - 59°F
11 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00028 MSm³/d @ 15°C - 59°F
12 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00030 MSm³/d @ 15°C - 59°F
13 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00033 MSm³/d @ 15°C - 59°F
14 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00035 MSm³/d @ 15°C - 59°F
15 Normal cubic metres per hour to Mega Standard Cubic Metres per day = 0.00038 MSm³/d @ 15°C - 59°F
Category: main menu • gas flow menu • Normal cubic metres per hour
Convert gas flow of Normal cubic metre per hour (Nm³/hr @ 0°C - 32°F) and Mega Standard Cubic Metres per day (MSm³/d @ 15°C - 59°F) units in reverse from Mega Standard Cubic Metres per day into Normal cubic metres per hour.
Gas flow data
A pair of two gas flow units. Used for transporting velocity of natural gas in high and low volume quantities. The MMBtu unit for sales of gas amounts is thoroughly explained on the main gas flows tool page.
Converter type: gas flow units
First unit: Normal cubic metre per hour (Nm³/hr @ 0°C - 32°F) is used for measuring gas flow.
Second: Mega Standard Cubic Metre per day (MSm³/d @ 15°C - 59°F) is unit of gas flow.
QUESTION:
15 Nm³/hr @ 0°C - 32°F = ? MSm³/d @ 15°C - 59°F
ANSWER:
15 Nm³/hr @ 0°C - 32°F = 0.00038 MSm³/d @ 15°C - 59°F
Abbreviation, or prefix, for Normal cubic metre per hour is:
Nm³/hr @ 0°C - 32°F
Abbreviation for Mega Standard Cubic Metre per day is:
MSm³/d @ 15°C - 59°F
Other applications for this gas flow calculator ...
With the above mentioned two-units calculating service it provides, this gas flow converter proved to be useful also as a teaching tool:
1. in practicing Normal cubic metres per hour and Mega Standard Cubic Metres per day ( Nm³/hr @ 0°C - 32°F vs. MSm³/d @ 15°C - 59°F ) measures exchange.
2. for conversion factors between unit pairs.
3. work with gas flow's values and properties.